CN103282720A

CN103282720A - Automatic water supply-ype steam generator using vapor pressure

Info

Publication number: CN103282720A
Application number: CN2011800633155A
Authority: CN
Inventors: 任周赫
Original assignee: Individual
Current assignee: Individual
Priority date: 2010-12-28
Filing date: 2011-12-28
Publication date: 2013-09-04
Anticipated expiration: 2031-12-28
Also published as: CA2823531C; AU2011350149A1; US9255709B2; RU2569472C2; US20130284122A1; WO2012091470A3; EP2660514B1; CN105546501A; WO2012091470A2; EP2660514A2; EP2660514A4; CA2823531A1; CN103282720B; AU2011350149B2; KR101161677B1; CN105674231A; RU2013137178A; JP2014504715A; JP5869000B2

Abstract

The present invention relates to an automatic water supply-type steam generator using vapor pressure for creating the optimum vacuum pressure inside a pressurized water supply tank, and for smoothly providing water to the pressurized water supply tank by using the strong aspiration force that is created by means of the vacuum pressure while continuously generating steam. The present invention is characterized by allowing control of the vacuum pressure to the optimum state when creating the vacuum pressure inside the pressurized water supply tank by introducing an adequate amount of outside air from the atmosphere through an air vent. In addition, the present invention is characterized by providing a means for cooling the pressurized water supply tank so as to control the vacuum pressure inside the tank to the optimum state.

Description

Utilize the automatic water-supply formula steam generator of steam pressure

Technical field

The present invention relates to a kind of steam pressure that utilizes and produce best vacuum pressure in the inside of pressurization supply flume, by supplying water by the strong inhalation power of described vacuum pressure smoothly to described pressurization supply flume, continue to produce the technology of the steam that needs simultaneously.

Background technology

Steam generator produces steam utilizing the various energy (heater, used heat etc.) to add hot water, and be provided for responding to the water level sensor of water level in the steam groove of storing, when water level reduces and water level in the steam groove when reaching the lowest water level of having set, water level sensor is responded to described situation, automatically open the water supply control valve that is arranged on feed pipe, thereby to steam groove supply water.

Described existing steam generator, its supply flume are arranged on the upside of steam groove and by being supplied water by the natural pressure of difference in height up and down, therefore, during to the new water of described steam groove supply, need to use other electrodynamic pump.

And, the inside of described steam groove itself keeps high pressure, even if can not supply water smoothly and supply flume is arranged on upside, for solving described problem jumbo electrodynamic pump need be set, thus, installation cost is many, and, need a lot of electric power when starting water pump and making the water pump action, therefore, the validity of energy and the property used reduction, and maintenance cost is also many.

Therefore, need following technology, that is, utilize steam pressure to produce best vacuum pressure in the inside of pressurization supply flume, by successfully supplying water by the strong inhalation power of described vacuum pressure to described pressurization supply flume.

Summary of the invention

Problem to be solved by this invention flows into suitable extraneous air by exhaust outlet from atmosphere, thereby vacuum pressure can be adjusted to optimum state for when the inside at the pressurization supply flume produces vacuum pressure.

Problem to be solved by this invention is that the inside that is adjusted at the pressurization supply flume produces the time of vacuum pressure, thereby vacuum pressure can be adjusted to optimum state.

The present invention is as the means that solve described problem, following technology is provided, namely, the condensing water accumulator tank that is used for the steam after recovery is used is connected in the pressurization supply flume by the additional water pipe that is provided with the supplementing water control valve, described pressurization supply flume is connected in steam generator by the steam pressure supply pipe that is provided with the pressure supply control valve, described pressurization supply flume is connected in steam generator or watering place by the feed pipe that is provided with water supply control valve, is provided with in described additional water pipe difference to possess the exhaust outlet that vacuum is pressed control valve.

The present invention also provides following technology, that is, connect towards the inside of described pressurization supply flume and the refrigerant injection pipe to be set to the internal spray cooling agent of described pressurization supply flume.

According to the present invention, following effect is provided, namely, utilize steam pressure to produce vacuum pressure in the inside of pressurization supply flume, thereby utilize the strong inhalation power by described vacuum pressure, suck the water in the condensing water accumulator tank, simultaneously to the automatic supplementing water of pressurization supply flume, and when successfully supplying water in the described pressurization supply flume to steam generator, can continue to produce needed steam.

And, following effect also is provided, that is, do not use existing various big capacity water pumps, therefore, effectively reduce the expense of described water pump, simultaneously, reduce the unnecessary power consumption when starting described water pump, thereby improve energy efficiency and the property used, can also save maintenance cost.

Further, provide following effect, that is, be adjusted at the vacuum pressure of the inside formation of described pressurization supply flume freely, thereby remain an amount of vacuum, and vacuum pressure is applied to till the inside of steam groove, solve existing issue simultaneously fully.

Description of drawings

Fig. 1 is the block diagram that the integral body formation that is applicable to automatic water-supply formula steam generator of the present invention comprehensively is shown.

Fig. 2 is the longitudinal section of the state that arranges of condensing water accumulator tank of the present invention, pressurization supply flume and exhaust outlet.

Fig. 3 is the amplification sectional view of the state that arranges of exhaust outlet of the present invention.

Fig. 4 to Fig. 6 is the plane that connects the state that additional water pipe is set to the inside of condensing water accumulator tank of the present invention.

Fig. 7 is the amplification sectional view that the state of cooling agent sparge pipe is set at pressurization supply flume of the present invention.

Fig. 8 is the longitudinal section at the state of the dual housing that is provided for cooling off in the outside of pressurization supply flume of the present invention.

Fig. 9 is the amplification sectional view that the state of temperature sensor or pressure sensor is set at pressurization supply flume of the present invention.

Figure 10 is the longitudinal section of the partial cut of the state that cooling pin is arranged of the arranged outside at pressurization supply flume of the present invention.

Figure 11 is the block diagram that the integral body formation that is applicable to other embodiment of the present invention comprehensively is shown.

The specific embodiment

At first, illustrate simply that with reference to accompanying drawing overall technology according to a preferred embodiment of the invention constitutes, and comprising: condensing water accumulator tank 20 is used for reclaiming the steam after using; Pressurization supply flume 30 is connected in described condensing water accumulator tank 20 by replenishing water pipe 21; Steam pressure supply pipe 40 is connected between described pressurization supply flume 30 and the steam generator 10; Feed pipe 50 is connected between described pressurization supply flume 30 and the steam generator 10; Supplementing water control valve 60 is arranged on the pipeline of described additional water pipe 21; Pressure supply control valve 70 is arranged on the pipeline of described steam pressure supply pipe 40; Water supply control valve 80 is arranged on the pipeline of described feed pipe 50; And exhaust outlet 90, being arranged on described additional water pipe 21 with the difference state, pipeline is provided with vacuum and presses control valve 95.

Upper end at described pressurization supply flume 30 is connected with refrigerant injection pipe 90 towards inside, thereby when the steam pressure of the vapor film 21 that is filled in described pressurization supply flume 30 all is discharged into condensing water accumulator tank 20, the automatic ejected coolant of described refrigerant injection pipe.

Steam generator 10 of the present invention plays utilization and is boiled water by the DIRECT ENERGY that is arranged on inner heater or the used heat that discharges towards the outside, the various energy such as energy that discharge from the power station and produce steam and store.

After using the steam that produces from described steam generator 10 with various purposes, described steam all is recovered in the condensing water accumulator tank 20 and reduces energy loss.Described condensing water accumulator tank 20 is connected in pressurization supply flume 30 by replenishing water pipe 21, thereby the condensing water in the described condensing water accumulator tank 20 can be added to pressurization supply flume 30, the water of the amount that is connected with the running water pipe 22 of the Valve for keeping constant water level 22a that possesses other towards inside and reduces in order to can replenish condensing water natural evaporation at described condensing water accumulator tank 20.

As shown in Figures 1 and 2, between described pressurization supply flume 30 and steam generator 10, connect steam pressure supply pipe 40 is set, connection arranges feed pipe 50 between described pressurization supply flume 30 and steam generator 10, thereby a part that is stored at the high-pressure steam pressure of steam generator 10 can be fed to pressurization supply flume 30.

Namely, the part that the present invention will be stored at the steam pressure of described steam generator 10 is fed to pressurization supply flume 30, and make the internal pressure of steam generator 10 and the internal pressure of pressurization supply flume 30 keep poised state, thereby can be fed to steam generator 10 smoothly with amassing full water at supply flume 40, especially, in described process, need not to use other big capacity water pump.

Pipeline at described additional water pipe 21 is provided with supplementing water control valve 60, pipeline at described steam pressure supply pipe 40 is provided with pressure supply control valve 70, pipeline at described feed pipe 50 is provided with water supply control valve 80, thereby the selection operation by controller, automatically each stream of opening/closing (ON/OFF) is so very easy to use.

As shown in Figure 2, but aforesaid additional water pipe 21 of the present invention is connected in pressurization supply flume 30 with being set to the water flowing of one side, and opposite side is immersed in the water of condensing water accumulator tank 20 inside, immerses the structure that the front end at position is opened.

As shown in Figure 4, additional water pipe 21 of the present invention is set to the inside that its opposite side is immersed in condensing water accumulator tank 20, and the front end that immerses the position is closed, and in the structure of outer peripheral face with a plurality of nozzle bore 21a of equidistant formation.

As shown in Figure 5, described additional water pipe 21 is set to the inside that its opposite side is immersed in condensing water accumulator tank 20, be provided with connector 23 at the front end that immerses the position, be connected with the discharging suction dual-purpose pipe 24 that a side front end is closed at described connector 23, be formed with the structure of a plurality of nozzle bore 24a at the outer peripheral face of described discharging suction dual-purpose pipe 24.

As shown in Figure 6, described additional water pipe 21 is set to the inside that its opposite side is set to be immersed in condensing water accumulator tank 20, be connected with " T " font branch pipe 25 at the front end that immerses the position, be connected with discharging in the both sides of described " T " font branch pipe 25 and suck dual-purpose pipe 26, be formed with the structure of a plurality of nozzle bore 26a at the outer peripheral face of described discharging suction dual-purpose pipe 26.

Herein, form described a plurality of nozzle bore 21a, 24a, 26a and be for the discharging rapidly that relaxes anxious steam pressure in case rock and produce the phenomenon of serious noise at water in the process of condensing water accumulator tank 20 discharging high-pressure steam pressures, steam pressure also passes through the overall magnitude of condensing water accumulator tank 20 and is disperseed discharging equably by described fine nozzle bore 21a, 24a, 26a, thereby reduce rocking of water and reduce noise, and effectively anti-sealing overflows to outside.

Even if the present invention also exists the problem of vacuum pressure to propose for solving owing to the vacuum pressure that produces in described pressurization supply flume 30 sucks the additional fully water of amount from condensing water accumulator tank 20 very by force, be provided with exhaust outlet 90 at described additional water pipe 21 with the difference state, the pipeline of described exhaust outlet 90 is provided with vacuum and presses control valve 95.

Described exhaust outlet 90 plays a part to be discharged in the process of condensing water accumulator tank 20 steam pressure towards an outside discharging part at the steam pressure that will amass full vapor film 31 at pressurization supply flume 30 by replenishing water pipe 21, and, flow into air from the outside when inside that is provided at described pressurization supply flume 30 produces vacuum pressure and reduce vacuum pressure, thereby can keep the effect of vacuum.

Described vacuum presses control valve 95 by opening and closing motion is adjusted the method for the influx of air, can adjust vacuum freely.

Described exhaust outlet 90 is arranged on the pipeline that replenishes water pipe 21 and is not subjected to the restriction in place, but further possesses the technology on the pipeline that is arranged on the additional water pipe 21 that is positioned at condensing water accumulator tank 20 inside in the present invention, therefore, the steam pressure that is discharged by exhaust outlet 90 is not discharged in the atmosphere and is recovered to the inside of condensing water accumulator tank 20 naturally, reduce energy loss, especially, the air inflow aperture 91 that is formed on the upper end of described exhaust outlet 90 is exposed in the inner atmosphere layer 20a of accumulator tank 20, thereby when producing vacuum pressure in the inside of described pressurization supply flume 30, can successfully flow into air from atmosphere 20a.

The present invention is in order to shorten the time that produces vacuum pressure in the inside of described pressurization supply flume 30, thereby can supply supplementing water more quickly, as shown in Figure 7, upper end at described pressurization supply flume 30 connects the refrigerant injection pipe 98 that other are set towards inside, be provided with nozzle 99 in the lower end of described refrigerant injection pipe 98.

Therefore, when filling steam pressure at the vapor film 31 of described pressurization supply flume 30 and all be discharged into condensing water accumulator tank 20, the nozzle 99 automatic ejected coolant of described refrigerant injection pipe 98, thus the effect that promotes liquefaction and effectively shorten the time that produces vacuum pressure is provided.

The present invention is as shortening in described pressurization supply flume 30 inner other schemes that produce the time of vacuum pressure, as shown in Figure 7, the housing 100 that is used for cooling that possesses cooling chamber 101 in the dual setting in the outside of described pressurization supply flume 30 replaces described refrigerant injection pipe 98, connect respectively in the described both sides of housing 100 for cooling cooling agent supply pipe 102 is set, thereby, the cooling agent of supplying by described cooling agent supply pipe 102 promotes liquefaction by heat exchange action in passing through the process of cooling chamber 101, thereby can shorten the time that produces vacuum pressure.

As shown in Figure 9, the present invention further arranges temperature sensor 110 or pressure sensor 115 at described pressurization supply flume 30, thereby when described temperature sensor 110 or pressure sensor 115 are sensed the steam pressure of filling at the vapor film 31 of described pressurization supply flume 30 and all are discharged into the internal temperature of correct time point of condensing water accumulator tank 20 or internal pressure, at once pass on control signal and ejected coolant to controller, and then timely ejected coolant.

The present invention is as shortening in described pressurization supply flume 30 inner other schemes that produce the time of vacuum pressure, as shown in figure 10, be formed with a plurality of cooling pins 120 and replace described refrigerant injection pipe 98 so that radial one is outstanding at the outer peripheral face of described pressurization supply flume 30, thereby when improving cooling effectiveness, promotion is liquefied and can be shortened the time that produces vacuum pressure.

The present invention of Gou Chenging as mentioned above, by the steam pressure to pressurization supply flume 30 supply parts, thereby will amass full water in described pressurization supply flume 30 and be fed to steam generator 10 smoothly, thus, when the water level step-down of described pressurization supply flume 30, in time replenish the water in the condensing water accumulator tank 20.

For this reason, when interim opening is arranged on the supplementing water control valve 60 of described additional water pipe 21, the high-pressure steam pressure of filling at the vapor film 31 of pressurization supply flume 30 directly is discharged into condensing water accumulator tank 20 by replenishing water pipe 21, or as shown in Figure 4, be discharged by being formed on the nozzle bore 21a that replenishes water pipe 21, or as Fig. 5 and shown in Figure 6, can suck dual-purpose pipe 24,26 by other discharging and be discharged.

By discharging described high-pressure steam pressure, the temperature of condensing water accumulator tank 20 rises, and the temperature of the vapor film 31 of pressurization supply flume 30 reduces, and produces liquefaction phenomenon, thereby produces strong vacuum pressure in described liquefaction process.

Therefore, by the strong attraction by described vacuum pressure, water in the condensing water accumulator tank 20 directly is inhaled into by additional water pipe 21 or is inhaled into by being formed on the nozzle bore 21a that replenishes water pipe 21, or suck dual-purpose pipe 24,26 by other discharging and be inhaled into, simultaneously to described pressurization supply flume 30 automatic supplementing water.

When filling steam pressure at the vapor film 31 of described pressurization supply flume 30 and all be discharged into condensing water accumulator tank 20, the nozzle 91 automatic ejected coolant of described refrigerant injection pipe 90, thus the effect that promotes liquefaction and effectively shorten the time that produces vacuum pressure is provided.

When the water in the described pressurization supply flume 30 reached the peak level of having set, supplementing water control valve 60 was closed automatically, simultaneously, and the stop supplies supplementing water.

Claims

1. an automatic water-supply formula steam generator that utilizes steam pressure is characterized in that, comprising:

Condensing water accumulator tank (20) is used for reclaiming the steam after using;

Pressurization supply flume (30) is connected in described condensing water accumulator tank (20) by replenishing water pipe (21);

Steam pressure supply pipe (40) is connected between described pressurization supply flume (30) and the steam generator (10);

Feed pipe (50) is connected between described pressurization supply flume (30) and the steam generator (10), or is connected between described pressurization supply flume (30) and the watering place (5);

Supplementing water control valve (60) is arranged on the pipeline of described additional water pipe (21);

Pressure supply control valve (70) is arranged on the pipeline of described steam pressure supply pipe (40);

Water supply control valve (80) is arranged on the pipeline of described feed pipe (50); And

Exhaust outlet (90) in order to adjust the inner vacuum pressure of described pressurization supply flume (30), is arranged on described additional water pipe (21) with the difference state, and pipeline is provided with vacuum and presses control valve (95).

2. the automatic water-supply formula steam generator that utilizes steam pressure according to claim 1, it is characterized in that, exhaust outlet (90) is arranged on the pipeline that is positioned at the inner additional water pipe (21) of condensing water accumulator tank (20), and reclaiming the steam pressure that is discharged by described exhaust outlet (90) towards the inside of condensing water accumulator tank (20), the air inflow aperture (91) that is formed on the upper end of described exhaust outlet (90) is exposed in the inner atmosphere layer (20a) of condensing water accumulator tank (20).

3. an automatic water-supply formula steam generator that utilizes steam pressure is characterized in that, comprising:

Refrigerant injection pipe (90), in order to shorten the time that forms the inner vacuum pressure of described pressurization supply flume (30), and arrange towards the inside connection in the upper end of described pressurization supply flume (30), thereby when filling when the steam pressure of the vapor film (31) of described pressurization supply flume (30) all is discharged into condensing water accumulator tank (20) the automatic ejected coolant of described refrigerant injection pipe.

4. an automatic water-supply formula steam generator that utilizes steam pressure is characterized in that, comprising:

Condensing water accumulator tank (20) is arranged at the downside of steam generator (10), is used for reclaiming the steam after using;

Steam pressure supply pipe (40) is connected between described steam generator (10) and the pressurization supply flume (30);

The housing (100) that is used for cooling, in order to shorten the time that forms the inner vacuum pressure of described pressurization supply flume (30), and the dual outside that is arranged on described pressurization supply flume (30), be formed with cooling chamber (101) in inside, be connected with cooling agent supply pipe (102) in both sides respectively.

5. an automatic water-supply formula steam generator that utilizes steam pressure is characterized in that, comprising:

A plurality of cooling pins (120), in order to shorten time of forming the inner vacuum pressure of described pressurization supply flume (30) with the radial outstanding outer peripheral face that is formed on described pressurization supply flume (30).

6. according to each the described automatic water-supply formula steam generator that utilizes steam pressure in the claim 1 to 5, it is characterized in that, replenish water pipe (21) and be set to the upper end that the one side is connected in pressurization supply flume (30), opposite side is immersed in the inner water of condensing water accumulator tank (20), immerses the front end at position and is opened.

7. according to each the described automatic water-supply formula steam generator that utilizes steam pressure in the claim 1 to 5, it is characterized in that, replenish water pipe (21) and be set to the upper end that the one side is connected in pressurization supply flume (30), opposite side is immersed in the inside of condensing water accumulator tank (20), the front end that immerses the position is closed, and is formed with a plurality of nozzle bores (21a) at outer peripheral face.

8. according to each the described automatic water-supply formula steam generator that utilizes steam pressure in the claim 1 to 5, it is characterized in that, replenish water pipe (21) and be set to the upper end that the one side is connected in pressurization supply flume (30), opposite side is immersed in the inside of condensing water accumulator tank (20), be provided with connector (23) at the front end that immerses the position, be connected with the discharging suction dual-purpose pipe (24) that a side front end is closed at described connector, the outer peripheral face that sucks dual-purpose pipe (24) in described discharging is formed with a plurality of nozzle bores (24a).

9. according to each the described automatic water-supply formula steam generator that utilizes steam pressure in the claim 1 to 5, it is characterized in that, replenish water pipe (21) and be set to the upper end that the one side is connected in pressurization supply flume (30), opposite side is immersed in the inside of condensing water accumulator tank (20), be connected with " T " font branch pipe (25) at the front end that immerses the position, be connected with discharging in the both sides of described " T " font branch pipe (25) and suck dual-purpose pipe (26), the outer peripheral face that sucks dual-purpose pipe (26) in described discharging is formed with a plurality of nozzle bores (26a).

10. according to each the described automatic water-supply formula steam generator that utilizes steam pressure in the claim 1 to 5, it is characterized in that, further be provided with temperature inductor (110) or pressure inductor (115) at pressurization supply flume (30).